The Physical Principles of Electron Paramagnetic Resonance

Abragam absorption alkali halides angular momentum arising atomic hydrogen axial axis CaF2 Chapter Chem components configuration consider coordinate system cosē coupling crystal field cubic symmetry degeneracy discussed double resonance doublet effect electric field electron paramagnetic resonance emission ENDOR energy levels EPR spectra EPR transition equations F F F frequency g factor gẞH H₁ hole hydrogen hyperfine interaction hyperfine structure impurity intensity interstitial isotopes Jahn-Teller effect Larmor frequency lattice M₁ magnetic dipole magnetic field magnetic resonance matrix elements microwave molecular molecule ion nuclear spin nuclei observed obtain occur operators optical orbital oscillating paramagnetic entities parameters perturbation theory phonon Phys population quantum numbers rare-earth ion relaxation rate result rotating saturation Section shown in Fig signal Solid spectrum spin Hamiltonian spin-lattice relaxation spin-orbit interaction splitting T₁ T₂ temperature tensor tetragonal tonian vacancy vector wave function York